The biodegradation of fullerene C by myeloperoxidase.

It is shown for the first time that the mammalian enzymes can cause the degradation of the C60 fullerene molecules. This biodegradation is caused by the action of а hypochlorite generated neutrophil enzyme myeloperoxidase of fullerene molecule and leads to the loss of the topology of the fullerene core.

Enhanced brain penetration of hexamethonium in complexes with derivatives of fullerene C60.

The present report describes development of hexamethonium complexes based on fullerene C60. Hexamethonium has a limited penetration into CNS and therefore can antagonize central effects of nicotine only when given at high doses. In the present studies conducted in laboratory rodents, intraperitoneal administration of hexamethonium-fullerene complexes blocked effects of nicotine (convulsions and locomotor stimulation).

[Effect of different water-soluble forms of the fullerene C60 on the metabolic activity and ultra-structure of cells in culture].

In view of contradictory data on the toxicity of fullerenes for live organisms we studied the effect of water-soluble complexes of C60 with N-polyvivyl-pirrolidone (C60/PVP) and gamma-cyclodextrine (C60/gamma-CD) on MA-104 cells in culture. Both complexes proved to be non-toxic for cultured cells in the dark in wide range of concentrations. Both complexes provoke changes of cellular ultra-structure which reflect the enhancement of metabolic activity.

[Effect of polymer carrier origin and physical state on fullerene C60 phototoxicity in vitro].

Biological effects of water-soluble inclusion complexes of fullerene C60 with poly(vinyl pyrrolidone) (C60/PVP) and gamma-cyclodextrin (C60/g-CD) as well as solid C60 (C60-coated surface) on cell viability have been studied in vitro. It is established that both inclusion complexes (in a broad range of concentrations) and solid fullerene coatings are nontoxic in the dark for the cell of all lines tested. In contrast, under intense UV illumination, the C60/PVP complex reliably protected test cells from the UV radiation damage, whereas the C60/g-CD and fullerene-coated surface exhibited pronounced phototoxicity.

[Effect of fullerene C60-polyvinilpyrrolidone complexes on influenza virus reproduction].

The capacity of water-soluble complexes of fullerene C60-polyvinylpyrrolidone to inhibit the replication of influenza viruses was studied. In contrast to remantadine, these complexes inhibit the replication of both A and B viruses (including the remantadine-resistant strains). The complexes inhibit influenza virus replication at all stages of replication cycle.